Zebiao Shan , Ruiguang Yao , Xiaosong Liu , Yunqing Liu
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引用次数: 0
摘要
针对现有的到达方向(DOA)估计算法难以在阿尔法稳定分布噪声和高斯彩色噪声混合的环境中实现高精度估计的问题,提出了一种基于分数阶积(FOC)的声学矢量传感器(AVS)阵列前瞻正交匹配追寻算法。首先,该算法计算观测数据的 FOC 矩阵,并利用 FOC 的半不变性从观测数据中分离出阿尔法稳定分布噪声和高斯彩色噪声。此外,利用 FOC 对阿尔法稳定分布过程和高斯过程不敏感的特性,可以抑制阿尔法稳定分布噪声和高斯彩色噪声。随后,通过矢量化算子重建 FOC 矩阵,并得出基于 FOC 的稀疏 DOA 估计模型。最后,前瞻正交匹配追求算法会预测每个候选原子对残差最小化的影响。它选择最优原子进入支持集,从而获得目标的 DOA 估计值。通过计算机仿真验证了所提算法的有效性。仿真结果表明,所提算法具有较高的估计精度和成功概率。
DOA estimation for acoustic vector sensor array based on fractional order cumulants sparse representation
Aiming at the problem that the existing direction of arrival (DOA) estimation algorithms are difficult to achieve high-precision estimation in environments with mixed Alpha-stable distribution noise and Gaussian-colored noise, a look ahead orthogonal matching pursuit algorithm based on Fractional Order Cumulants (FOC) is proposed for acoustic vector sensor (AVS) arrays. Firstly, the algorithm computes the FOC matrix of the observed data and exploits the semi-invariance of the FOC to separate Alpha-stable distribution noise and Gaussian-colored noise from the observed data. Furthermore, the property that FOC is insensitive to the Alpha-stable distribution processes and Gaussian processes is then exploited to suppress the Alpha-stable distribution noise and Gaussian-colored noise. Subsequently, the FOC matrix is reconstructed through the vectorization operator, and an FOC-based sparse DOA estimation model is derived. Finally, the look ahead orthogonal matching pursuit algorithm predicts the impact of each candidate atom on minimizing the residual. It selects the optimal atom to enter the support set, obtaining the DOA estimation of the target. The effectiveness of the proposed algorithm is verified through computer simulations. The simulation results show that the proposed algorithm has high estimation accuracy and success probability.
期刊介绍:
PHYCOM: Physical Communication is an international and archival journal providing complete coverage of all topics of interest to those involved in all aspects of physical layer communications. Theoretical research contributions presenting new techniques, concepts or analyses, applied contributions reporting on experiences and experiments, and tutorials are published.
Topics of interest include but are not limited to:
Physical layer issues of Wireless Local Area Networks, WiMAX, Wireless Mesh Networks, Sensor and Ad Hoc Networks, PCS Systems; Radio access protocols and algorithms for the physical layer; Spread Spectrum Communications; Channel Modeling; Detection and Estimation; Modulation and Coding; Multiplexing and Carrier Techniques; Broadband Wireless Communications; Wireless Personal Communications; Multi-user Detection; Signal Separation and Interference rejection: Multimedia Communications over Wireless; DSP Applications to Wireless Systems; Experimental and Prototype Results; Multiple Access Techniques; Space-time Processing; Synchronization Techniques; Error Control Techniques; Cryptography; Software Radios; Tracking; Resource Allocation and Inference Management; Multi-rate and Multi-carrier Communications; Cross layer Design and Optimization; Propagation and Channel Characterization; OFDM Systems; MIMO Systems; Ultra-Wideband Communications; Cognitive Radio System Architectures; Platforms and Hardware Implementations for the Support of Cognitive, Radio Systems; Cognitive Radio Resource Management and Dynamic Spectrum Sharing.
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